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A disturbance in the local magnetic order of a solid body can propagate across a material just like a wave. This wave is named spin wave, and its quanta are known as magnons. Recently, physicists proposed the usage of magnons to carry and…

Mesoscale and Nanoscale Physics · Physics 2019-01-28 A. V. Chumak

The field of magnonics, which utilizes propagating spin waves for nano-scale transmission and processing of information, has been significantly advanced by the advent of the spin-orbit torque. The latter phenomenon can allow one to overcome…

Mesoscale and Nanoscale Physics · Physics 2020-05-05 V. E. Demidov , S. Urazhdin , A. Anane , V. Cros , S. O. Demokritov

Low-energy magnonic logic circuits are an actively developing field of modern magnetism. The potential benefits of magnonics for data processing are vitally dependent on units based on non-reciprocal propagation of spin waves in analogy to…

Materials Science · Physics 2023-03-01 P. I. Gerevenkov , Ia. A. Filatov , A. M. Kalashnikova , N. E. Khokhlov

Magnonics is gaining momentum as an emerging technology for information processing. The wave character and Joule heating-free propagation of spin-waves hold promises for highly efficient analog computing platforms, based on integrated…

Magnonics is a field of science that addresses the physical properties of spin waves and utilizes them for data processing. Scalability down to atomic dimensions, operations in the GHz-to-THz frequency range, utilization of nonlinear and…

Applied Physics · Physics 2023-11-01 A. V. Chumak , P. Kabos , M. Wu , C. Abert , C. Adelmann , A. Adeyeye , J. Åkerman , F. G. Aliev , A. Anane , A. Awad , C. H. Back , A. Barman , G. E. W. Bauer , M. Becherer , E. N. Beginin , V. A. S. V. Bittencourt , Y. M. Blanter , P. Bortolotti , I. Boventer , D. A. Bozhko , S. A. Bunyaev , J. J. Carmiggelt , R. R. Cheenikundil , F. Ciubotaru , S. Cotofana , G. Csaba , O. V. Dobrovolskiy , C. Dubs , M. Elyasi , K. G. Fripp , H. Fulara , I. A. Golovchanskiy , C. Gonzalez-Ballestero , P. Graczyk , D. Grundler , P. Gruszecki , G. Gubbiotti , K. Guslienko , A. Haldar , S. Hamdioui , R. Hertel , B. Hillebrands , T. Hioki , A. Houshang , C. -M. Hu , H. Huebl , M. Huth , E. Iacocca , M. B. Jungfleisch , G. N. Kakazei , A. Khitun , R. Khymyn , T. Kikkawa , M. Kläui , O. Klein , J. W. Kłos , S. Knauer , S. Koraltan , M. Kostylev , M. Krawczyk , I. N. Krivorotov , V. V. Kruglyak , D. Lachance-Quirion , S. Ladak , R. Lebrun , Y. Li , M. Lindner , R. Macêdo , S. Mayr , G. A. Melkov , S. Mieszczak , Y. Nakamura , H. T. Nembach , A. A. Nikitin , S. A. Nikitov , V. Novosad , J. A. Otalora , Y. Otani , A. Papp , B. Pigeau , P. Pirro , W. Porod , F. Porrati , H. Qin , B. Rana , T. Reimann , F. Riente , O. Romero-Isart , A. Ross , A. V. Sadovnikov , A. R. Safin , E. Saitoh , G. Schmidt , H. Schultheiss , K. Schultheiss , A. A. Serga , S. Sharma , J. M. Shaw , D. Suess , O. Surzhenko , K. Szulc , T. Taniguchi , M. Urbánek , K. Usami , A. B. Ustinov , T. van der Sar , S. van Dijken , V. I. Vasyuchka , R. Verba , S. Viola Kusminskiy , Q. Wang , M. Weides , M. Weiler , S. Wintz , S. P. Wolski , X. Zhang

Spin waves are collective excitations propagating in the magnetic medium with ordered magnetizations. Magnonics, utilizing the spin wave (magnon) as information carrier, is a promising candidate for low-dissipation computation and…

Mesoscale and Nanoscale Physics · Physics 2016-10-19 Weichao Yu , Jin Lan , Ruqian Wu , Jiang Xiao

Magnonic nano-devices exploit magnons -- quanta of spin waves -- to transmit and process information within a single integrated platform that has the potential to outperform traditional semiconductor-based electronics for low power…

Magnonics attracts increasing attention in the view of novel low-energy computation technologies based on spin waves. Recently, spin-wave propagation in longitudinally magnetized nano-scaled spin-wave conduits was demonstrated, proving the…

Low dissipation data processing with spins is one of the promising directions for future information and communication technologies. Despite a signifcant progress, the available magnonic devices are not broadband yet and have restricted…

Mesoscale and Nanoscale Physics · Physics 2017-07-18 Antonio Lara , Javier Robledo Moreno , Konstantin Y. Guslienko , Farkhad G. Aliev

The emerging field of nano-magnonics utilizes high-frequency waves of magnetization - the spin waves - for the transmission and processing of information on the nanoscale. The advent of spin-transfer torque has spurred significant advances…

Mesoscale and Nanoscale Physics · Physics 2018-07-06 Boris Divinskiy , Vladislav E. Demidov , Sergei Urazhdin , Ryan Freeman , Anatoly B. Rinkevich , Sergej O. Demokritov

The information carrier of modern technologies is the electron charge whose transport inevitably generates Joule heating. Spin-waves, the collective precessional motion of electron spins, do not involve moving charges and thus avoid Joule…

Spin waves offer intriguing novel perspectives for computing and signal processing, since their damping can be lower than the Ohmic losses in conventional CMOS circuits. For controlling the spatial extent and propagation of spin waves on…

Spin waves, the collective excitations of the magnetic order parameter, and magnons, the associated quasiparticles, are envisioned as possible data carriers in future wave-based computing architectures. On the road towards spin-wave…

Spin waves are promising chargeless information carriers for the future, energetically efficient beyond-CMOS systems. Among many advantages there are the ease of achieving nonlinearity, the variety of possible interactions, and excitation…

Mesoscale and Nanoscale Physics · Physics 2022-03-22 Pawel Gruszecki , Konstantin Y. Guslienko , Igor L. Lyubchanskii , Maciej Krawczyk

Spin waves are propagating disturbances in magnetically ordered materials, analogous to lattice waves in solid systems and are often described from a quasiparticle point of view as magnons. The attractive advantages of Joule-heat-free…

Mesoscale and Nanoscale Physics · Physics 2017-03-14 Sourav Dutta , Dmitri E. Nikonov , Sasikanth Manipatruni , Ian A. Young , Azad Naeemi

Spin waves propagating in magnetic materials exhibit nonlinear behavior at large amplitudes due to the competition between excitation and relaxation, providing an attractive platform for exploring nonlinear wave dynamics. In particular,…

In the last decades, collinear magnetic insulating systems have emerged as promising energy-saving information carriers. Their elementary collective spin excitations, i.e., magnons, can propagate for long distances bypassing the Joule…

Mesoscale and Nanoscale Physics · Physics 2021-05-05 Benedetta Flebus

Transmission of microwave spin waves through a microstructured magnonic crystal in the form of a permalloy waveguide of a periodically varying width was studied experimentally and theoretically. The spin wave characteristics were measured…

Mesoscale and Nanoscale Physics · Physics 2011-07-06 A. V. Chumak , P. Pirro , A. A. Serga , M. P. Kostylev , R. L. Stamps , H. Schultheiss , K. Vogt , S. J. Hermsdoerfer , B. Laegel , P. A. Beck , B. Hillebrands

Magnon spintronics is an emerging field that explores the use of magnons, the quanta of spin waves in magnetic materials for information processing and communication. Achieving unidirectional information transport with fast switching…

Mesoscale and Nanoscale Physics · Physics 2024-10-03 Yueqi Wang , Mengying Guo , Kristýna Davídková , Roman Verba , Xueyu Guo , Carsten Dubs , Andrii V. Chumak , Philipp Pirro , Qi Wang

Spin waves are promising candidates to carry, transport, and process information. Controlling the propagation characteristics of spin waves in magnetic materials is an essential ingredient for designing spin-wave based computing…

Applied Physics · Physics 2020-07-29 Morteza Mohseni , Burkard Hillebrands , Philipp Pirro , Mikhail Kostylev
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